Recent advances in functional fiber electronics

Rapid development of wearable electronics with various functionalities has stimulated the demand to construct functional fiber devices due to their merits of mechanical flexibility, weavability, miniaturization, and integrability. To this end, fiber components which can realize the functions of ener...

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Published in:SusMat (Online) 2021-03, Vol.1 (1), p.105-126
Main Authors: Zhang, Xiaopei, Lin, Huijuan, Shang, Huan, Xu, Jingsan, Zhu, Jixin, Huang, Wei
Format: Article
Language:English
Subjects:
actuator
Carbon
Chemical vapor deposition
Commercialization
Conductivity
Electronics
Energy storage
energy storage device
Ethanol
fiber material
Flexibility
Functionals
Graphene
integration system
Mechanical properties
Nanowires
Polymers
Sensors
Silicon wafers
Solvents
strain detection
Surfactants
Textiles
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container_issue 1
container_start_page 105
container_title SusMat (Online)
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creator Zhang, Xiaopei
Lin, Huijuan
Shang, Huan
Xu, Jingsan
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description Rapid development of wearable electronics with various functionalities has stimulated the demand to construct functional fiber devices due to their merits of mechanical flexibility, weavability, miniaturization, and integrability. To this end, fiber components which can realize the functions of energy storage and conversion, actuating plus sensing have gained increasing concerns. Herein, we summarize the recent progress with respect to fiber material preparation, innovative structure design, and device performance in this review, also highlighting the possibility of integrated fiber electronics as an extension of application, the remaining challenges and future perspectives toward next‐generation smart systems and to facilitate their commercialization. Stimulated by the rapid development of wearable electronics, conductive fibers featuring high electrical conductivity and structural flexibility offer the great promise as essential building blocks for constructing flexible devices with functions of energy storage and conversion, actuating plus sensing functions. In this article, Jixin Zhu, Wei Huang, and co‐workers give an overview of fiber material preparation, innovative structure design, and device performance, also highlight the possibility of integration system.
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subjects actuator
Carbon
Chemical vapor deposition
Commercialization
Conductivity
Electronics
Energy storage
energy storage device
Ethanol
fiber material
Flexibility
Functionals
Graphene
integration system
Mechanical properties
Nanowires
Polymers
Sensors
Silicon wafers
Solvents
strain detection
Surfactants
Textiles
title Recent advances in functional fiber electronics
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